Hi everyone
I thought it may be helpful to someone if I'd document/share my experience of bringing back to life an old UJF-3042 printer, purchased with the aim of helping out a local business print product samples and experiment getting colour matching right (printing on various plastic, needing white ink) whilst leaving their main production line free, at a low entry cost (couldn't justify cost of new or even refurbished and the affordable low-end Chinese printers look somewhat 'buy cheap buy twice' etc).
I have a background in IT, electronics systems repair and a 'can fix anything' tenacity so felt this was a bit of a project that could possibly have a satisfying, rewarding ending!
So I saw this printer for sale apparently only needing new heads, so did some rough calculations and made a suitable offer based on cost of new heads after some research and possibility of flushing the Ricoh Gen4 heads, picked it up, removed a few covers and gave it the once over before applying any form of power, armed with copy of service/maintenance manual and good information found here amongst other places.
Thinking ahead I bought some Ethyl Acetate to help with the cleanup and head flushing, and was/am considering building a pumped flushing unit as per some very helpful Ricoh youtube videos.
What a mess I found!
Didn't really know what to expect, but it feels a bit like this was a daily workhorse that didn't get much time if any for maintenance or cleaning, only got any attention when a problem occurred. I poured the (full) waste ink container into an old empty IPA container I had laying about, and tested some of the ethyl acetate to clean up the congealed ink mess, which worked well but it evaporates super quickly, meaning you have to be quite quick to mop up!
The head slider board, ffc cables and head connectors at first glance all looked ok, but later turned out to be an issue.
The UV cooling radiator looks like it could do with a blast of air, fair coating of dust here
The LED UV unit itself has a very dirty glass (no photo yet) but that's on the list for cleaning as it will no doubt be reducing the effectiveness of curing.
Wow, the mess under the station wasn't expected, this was the first glimpse that what I bought wasn't just retired for new heads only - look at the pump assembly in pieces! The middle pump cover was laying on the bottom left, the insides of the pump and a split peristaltic tube circled.
This area is still due to be addressed, but first things first, since it wasn't any more just a 'simple' head replacement job I needed to check the printer systems electrically, in case I needed to make any electronic repairs too. Gingerly I applied power... a few fans started up and then beep beep beep, oops, a problem:
I couldn't see any of the suggested voltages on the slider board (first step in diagnosis). Now the information I had suggests a connection issue on one of the FFC cables between the slider relay board and the slider board and I'd read about a modification to early serial numbers (including this machine) to apply protection to stop screws from damaging the cables, so I disconnected both ends and metered out the lines one by one. All tested ok, however one of the blue stiffening back strips was coming away from the cable so ordered 3x 2m long 30 pin 1mm 'reverse' cables from aliexpress, which would take a week or two to arrive. In the meantime I reconnected the cables, and powered up again.
This time I got 11f SLDR PCB halt, so a difference. I watched the slider relay LEDs during boot up and noticed D1 wasn't lit, the information said a fuse was open but I wasn't so sure. I disconnected the FFC cables again and looked to see if any difference, nope. So out comes the slider relay board so I could check fuse etc.
... more in next post as reached limit on attachments.
I thought it may be helpful to someone if I'd document/share my experience of bringing back to life an old UJF-3042 printer, purchased with the aim of helping out a local business print product samples and experiment getting colour matching right (printing on various plastic, needing white ink) whilst leaving their main production line free, at a low entry cost (couldn't justify cost of new or even refurbished and the affordable low-end Chinese printers look somewhat 'buy cheap buy twice' etc).
I have a background in IT, electronics systems repair and a 'can fix anything' tenacity so felt this was a bit of a project that could possibly have a satisfying, rewarding ending!
So I saw this printer for sale apparently only needing new heads, so did some rough calculations and made a suitable offer based on cost of new heads after some research and possibility of flushing the Ricoh Gen4 heads, picked it up, removed a few covers and gave it the once over before applying any form of power, armed with copy of service/maintenance manual and good information found here amongst other places.
Thinking ahead I bought some Ethyl Acetate to help with the cleanup and head flushing, and was/am considering building a pumped flushing unit as per some very helpful Ricoh youtube videos.
What a mess I found!
Didn't really know what to expect, but it feels a bit like this was a daily workhorse that didn't get much time if any for maintenance or cleaning, only got any attention when a problem occurred. I poured the (full) waste ink container into an old empty IPA container I had laying about, and tested some of the ethyl acetate to clean up the congealed ink mess, which worked well but it evaporates super quickly, meaning you have to be quite quick to mop up!
The head slider board, ffc cables and head connectors at first glance all looked ok, but later turned out to be an issue.
The UV cooling radiator looks like it could do with a blast of air, fair coating of dust here
The LED UV unit itself has a very dirty glass (no photo yet) but that's on the list for cleaning as it will no doubt be reducing the effectiveness of curing.
Wow, the mess under the station wasn't expected, this was the first glimpse that what I bought wasn't just retired for new heads only - look at the pump assembly in pieces! The middle pump cover was laying on the bottom left, the insides of the pump and a split peristaltic tube circled.
This area is still due to be addressed, but first things first, since it wasn't any more just a 'simple' head replacement job I needed to check the printer systems electrically, in case I needed to make any electronic repairs too. Gingerly I applied power... a few fans started up and then beep beep beep, oops, a problem:
I couldn't see any of the suggested voltages on the slider board (first step in diagnosis). Now the information I had suggests a connection issue on one of the FFC cables between the slider relay board and the slider board and I'd read about a modification to early serial numbers (including this machine) to apply protection to stop screws from damaging the cables, so I disconnected both ends and metered out the lines one by one. All tested ok, however one of the blue stiffening back strips was coming away from the cable so ordered 3x 2m long 30 pin 1mm 'reverse' cables from aliexpress, which would take a week or two to arrive. In the meantime I reconnected the cables, and powered up again.
This time I got 11f SLDR PCB halt, so a difference. I watched the slider relay LEDs during boot up and noticed D1 wasn't lit, the information said a fuse was open but I wasn't so sure. I disconnected the FFC cables again and looked to see if any difference, nope. So out comes the slider relay board so I could check fuse etc.
... more in next post as reached limit on attachments.
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, and I now see a !WORK High message, but I can go through various menu options, test sensor etc. Turns out the !WORK High message was down to my forgetting to plug in the CN27 cable on the slider relay PCB, doh. 
